PEB 20542 F V1.3 Infineon Technologies, PEB 20542 F V1.3 Datasheet - Page 70
PEB 20542 F V1.3
Manufacturer Part Number
PEB 20542 F V1.3
Description
IC CTRLR DMA SERIAL 2-CH TQFP144
Manufacturer
Infineon Technologies
Series
SEROCCO™r
Datasheet
1.PEB_20542_F_V1.3.pdf
(300 pages)
Specifications of PEB 20542 F V1.3
Function
Serial Optimized Communications Controller
Interface
HDLC, PPP
Number Of Circuits
2
Voltage - Supply
3 V ~ 3.6 V
Current - Supply
50mA
Power (watts)
150mW
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
144-LFQFP
Includes
Bit Processor Functions, Serial Communication Controllers (SCCs)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
PEB20542FV1.3X
SP000007633
SP000007633
PEB 20542
PEF 20542
Functional Overview
Interference Rejection and Spike Filtering
Two or more edges in the same directional data stream within a time period of 16
reference clocks are considered to be interference and consequently no additional clock
adjustment is performed.
Phase Adjustment (PA)
Referring to
Figure
27,
Figure 28
and
Figure
29, in the case where an edge appears in
the data stream within the PA fields of the time window, the phase will be adjusted by 1/
16 of the data.
Phase Shift (PS) (NRZ, NRZI only)
Referring to
Figure 27
in the case where an edge appears in the data stream within the
PS field of the time window, a second sampling of the bit is forced and the phase is
shifted by 180 degrees.
Note: Edges in all other parts of the time window will be ignored.
This operation facilitates a fast and reliable synchronization for most common
applications. Above all, it implies a very fast synchronization because of the phase shift
feature: one edge on the received data stream is enough for the DPLL to synchronize,
thereby eliminating the need for synchronization patterns, sometimes called preambles.
However, in case of extremely high jitter of the incoming data stream the reliability of the
clock recovery cannot be guaranteed.
The SCC offers the option to disable the Phase Shift function for NRZ and NRZI
encodings by setting bit ’PSD’ in register
CCR0L
to ’1’. In this case, the PA fields are
extended as shown in
Figure
28.
Now, the DPLL is more insensitive to high jitter amplitudes but needs more time to reach
the optimal sampling position. To ensure correct data sampling, preambles should
precede the data information.
Figure
27,
Figure 28
and
Figure 29
explain the DPLL algorithms used for the different
data encodings.
Data Sheet
70
2000-09-14
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